Quantum Computing Algorithms for Nonlinear and History-Dependent Solid Mechanics — NSF Award to Vanderbilt University (TN, $593,59
Quantum computing offers to transform the way engineering computations are performed and promises to allow the engineering community to solve very large and complex mechanics problems that are intractable with classical computers. Using quantum mechanics principles such as superposition and entanglement, quantum comput
| Award title | Quantum Computing Algorithms for Nonlinear and History-Dependent Solid Mechanics |
|---|---|
| Award ID | 2527249 |
| Awardee | Vanderbilt University |
| City | NASHVILLE |
| State | TN |
| Amount obligated | $593,598 |
| Principal investigator | Caglar Oskay |
| Program | Special Initiatives, Mechanics of Materials and Str |
| Start date | 09/01/2025 |
| Abstract | Quantum computing offers to transform the way engineering computations are performed and promises to allow the engineering community to solve very large and complex mechanics problems that are intractable with classical computers. Using quantum mechanics principles such as superposition and entanglement, quantum computing could lead to both an exponential growth in memory capacity, and algorithmic speed-ups compared to existing “classical” computers. This study looks to devise new quantum comput |
| Source | NSF Awards |
$799/mo
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